Electrifying discourse: Anodal tDCS of the primary motor cortex selectively reduces action appraisal in naturalistic narratives
Fecha
2020Resumen
Non-invasive stimulation of the primary motor cortex (M1) modulates processing of
decontextualized action words and sentences (i.e., verbal units denoting bodily motion).
This suggests that language comprehension hinges on brain circuits mediating the bodily
experiences evoked by verbal material. Yet, despite its relevance to constrain mechanistic
language models, such a finding fails to reveal whether and how relevant circuits operate
in the face of full-blown, everyday texts. Using a novel naturalistic discourse paradigm, we
examined whether direct modulation of M1 excitability influences the grasping of narrated
actions. Following random group assignment, participants received anodal transcranial
direct current stimulation over the left M1, or sham stimulation of the same area, or anodal
stimulation of the left ventrolateral prefrontal cortex. Immediately afterwards, they
listened to action-laden and neutral stories and answered questions on information realized by verbs (denoting action and non-action processes) and circumstances (conveying
locative or temporal details). Anodal stimulation of the left M1 selectively decreased outcomes on action-relative to non-action information ea pattern that discriminated between
stimulated and sham participants with 74% accuracy. This result was particular to M1 and held irrespective of the subjects’ working memory and vocabulary skills, further attesting
to its specificity. Our findings suggest that offline modulation of motor-network excitability
might lead to transient unavailability of putative resources needed to evoke actions in
naturalistic texts, opening promising avenues for the language embodiment framework.